Report No. 312149-1
Template version: C
Nemko Norway Nemko AS, Instituttveien 6, P.O. Box 96 Kjeller, 2007 Kjeller, Norway TEL +47 22 96 03 30 FAX +47 22 96 05 50 EMAIL [email protected]
ENTERPRISE NUMBER NO974404532 nemko.com/no
Test Report
Product DECT Wireless Relay Station
Name and address of the applicant
Panasonic Corporation of North America
Name and address of the manufacturer
Panasonic System Networks Co., Ltd. 1-62, 4-chome, Minoshima, Hakata-ku Fukuoka 812-8531, Japan
Model KX-HNZ108 / KX-HNH200
Rating 120V AC (AC Adaptor Model PNLV226)
Trademark Panasonic
Serial number /
Additional information DECT 6.0, WRS
Tested according to
FCC Part 15, subpart D Isochronous UPCS Device, 1920 – 1930 MHz Industry Canada RSS 213, Issue 3 2 GHz License-Exempt Personal Communications Services (LE-PCS) Devices
Order number 312149
Tested in period 2016.06.15 to 2016.06.28 and 2016.09.07 to 2016.09.08
Issue date 2016.09.08
Name and address of the testing laboratory
Instituttveien 6 Kjeller, Norway
FCC No: 994405 IC OATS: 2040D-1 TEL: +47 22 96 03 30 FAX: +47 22 96 05 50
Prepared by [Frode Sveinsen] Approved by [G. Suhanthakumar]
This report shall not be reproduced except in full without the written approval of Nemko. Opinions and interpretations expressed within this report are not part of the current accreditation. This report was originally distributed electronically with digital signatures. For more information please contact Nemko.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 2 (47)
CONTENTS
1 INFORMATION ................................................................................................................................. 3
1.1 Tested Item........................................................................................................................................ 3
1.2 Description of Tested Device ............................................................................................................. 3
1.3 Test Environment .............................................................................................................................. 4
1.4 Test Engineer(s) ................................................................................................................................ 4
1.5 Test Equipment ................................................................................................................................. 4
1.6 Other Comments ............................................................................................................................... 4
2 TEST REPORT SUMMARY .............................................................................................................. 5
2.1 General .............................................................................................................................................. 5
2.2 Test Summary ................................................................................................................................... 6
3 TEST RESULTS ................................................................................................................................ 7
3.1 Power Line Conducted Emissions ..................................................................................................... 7
3.2 Digital Modulation Techniques .......................................................................................................... 9
3.3 Labeling Requirements ..................................................................................................................... 9
3.4 Channel Frequencies ........................................................................................................................ 9
3.5 Antenna Requirement...................................................................................................................... 10
3.6 Automatic Discontinuation of Transmission .................................................................................... 10
3.7 Peak Power Output ......................................................................................................................... 11
3.8 Emission Bandwidth B ..................................................................................................................... 14
3.9 Power Spectral Density ................................................................................................................... 17
3.10 In-Band Unwanted Emissions, Conducted ...................................................................................... 20
3.11 Out-of-band Emissions, Conducted................................................................................................. 22
3.12 Carrier Frequency Stability .............................................................................................................. 26
3.13 Frame Repetition Stability ............................................................................................................... 27
3.14 Frame Period and Jitter ................................................................................................................... 27
3.15 Monitoring Threshold, Least Interfered Channel ............................................................................. 29
3.16 Threshold Monitoring Bandwidth ..................................................................................................... 31
3.17 Reaction Time and Monitoring Interval ............................................................................................ 32
3.18 Time and Spectrum Window Access Procedure ............................................................................. 34
3.19 Acknowledgements and Transmission Duration ............................................................................. 37
3.20 Dual Access Criteria Check ............................................................................................................. 39
3.21 Alternative Monitoring Interval ......................................................................................................... 42
4 MEASUREMENT UNCERTAINTY .................................................................................................. 43
5 TEST SETUPS ................................................................................................................................ 44
5.1 Frequency Measurements ............................................................................................................... 44
5.2 Timing Measurements ..................................................................................................................... 44
5.3 Conducted Emission Test................................................................................................................ 44
5.4 Power Line Conducted Emissions Test ........................................................................................... 44
5.5 Monitoring Tests .............................................................................................................................. 45
6 TEST EQUIPMENT USED .............................................................................................................. 46
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 3 (47)
1 INFORMATION
1.1 Tested Item
Name : Panasonic
Model name : KX-HNZ108 / KX-HNH200
FCC ID : ACJ96NKX-HNZ108
Industry Canada ID : 216A-KXHNH200
Serial number : /
Hardware identity and/or version: PNLB1754xx
Software identity and/or version : SW101
Tested to IC Radio Standard (RSS) : RSS-213 Issue 3, RSS-GEN Issue 4
Test Site IC Reg. Number : IC 2040D-1
Frequency Range : 1921.536 – 1928.448 MHz
Number of Channels : 5 RF Channels, 5x12 = 60 TDMA Duplex Channels
Type of Modulation : Digital (Gaussian Frequency Shift Keying)
Conducted Output Power : 71.6 mW (Peak)
Antenna Connector : None
Number of Antennas : 2
Antenna Diversity Supported : Yes
Desktop Charger : N/A
Power Supply : AC Adaptor Model PNLV226
Interface : None
Companion Devices for Monitoring Tests : Base Station: KX-HNB600 (FCC ID: ACJ96NKX-HNB600) Portable Device: KX-HNS101 (FCC ID: ACJ96NKX-HNS101)*
* The Portable Device used for the monitoring tests, was operating in a mode where the connection was manually activated and kept until manually released.
1.2 Description of Tested Device
The EUT is a DECT Wireless Relay Station (WRS) and is a responding device as described in ANSI C63.17 and it is designed to operate together with a DECT Handset or Portable DECT Device, which is the initiating device.
The WRS works by retransmitting the data from the Portable DECT Device to the Base Station in the next DECT frame, and vice versa with the response from the Base Station to the Portable DECT Device. The WRS has its own unique ID and will only work with Base Stations it has previously been registered to. However, it will work with any Portable DECT Device that has been registered to the base station the WRS is registered to.
The WRS will not transmit if it does not see the Base Station it has been registered to.
The WRS decodes the signal it receives and retransmits only the data field, the RF signal transmitted from the WRS is on a different timeslot and is completely independent of the input signal received by the WRS, except that it is on the same RF Carrier and contains the same data field.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 4 (47)
1.3 Test Environment
Temperature: 20 – 23 °C
Relative humidity: 30 – 50 %
Normal test voltage: 120 V AC
The values are the limit registered during the test period.
1.4 Test Engineer(s)
Frode Sveinsen
Jan G. Eriksen (Power Line Conducted Test)
1.5 Test Equipment
See list of test equipment in clause 6.
1.6 Other Comments
The Monitoring and Time and Spectrum Window Access tests were performed with Test Set-Up 6 (Ref. clause 5). A clock signal from the companion device was used to synchronize the Pulse Pattern Generator and the Spectrum Analyzer to the start of the DECT time window. The EUT was limited by administrative commands to operate on only two frequency carriers. For the tests where the EUT was required to operate on only one frequency carrier, one carrier was blocked by applying a CW interfering signal from RF Generator 3. The Pulse Pattern Generator was used to apply time synchronized interference to time windows where this was required.
Since the EUT was programmed to operate on only two RF carriers, it was only necessary with two RF generators for the monitoring tests, however a third generator was applied for the tests that required specific time slots to be blocked.
This EUT supports Least Interfered Channel procedure (LIC), the Monitoring and Time and Spectrum Window Access tests were conducted as specified for EUTs that support LIC procedure.
All tests except Power-Line Conducted Emissions was performed in conducted mode with a temporary antenna connector.
The Power-Line Conducted Emissions tests was performed with all ports populated and operating.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 5 (47)
2 TEST REPORT SUMMARY
2.1 General
All measurements are traceable to national standards.
The tests were conducted on a sample of the equipment for the purpose of demonstrating compliance with FCC CFR47 Part 15D for Isochronous UPCS Devices and Industry Canada RSS-213 Issue 3 / RSS-GEN Issue 4 / RSP-100 Issue 11.
All tests were conducted is accordance with ANSI C63.4-2014 and ANSI C63.17-2013. Antenna Gain tests were made in a 3m fully-anechoic chamber.
A description of the test facility is on file with the FCC and Industry Canada.
New Submission Production Unit
Class II Permissive Change Pre-production Unit
PUB Equipment Code Family Listing
THIS TEST REPORT APPLIES ONLY TO THE ITEM(S) AND CONFIGURATIONS TESTED.
Deviations from, additions to, or exclusions from the test specifications are described in “Summary of Test Data”.
Nemko Group authorizes the above named company to reproduce this report provided it is reproduced in its entirety and for use by the company’s employees only. Any reproduction of parts of this report requires approval in writing from Nemko Group.
Any use which a third party makes of this report, or any reliance on or decisions to be made based on it, are the responsibility of such third parties. Nemko Group accepts no responsibility for damages suffered by any third party as a result of decisions made or actions based on this report.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 6 (47)
2.2 Test Summary
Name of test FCC CFR 47
Paragraph #
IC RSS-213
Paragraph #
Verdict
Power Line Conducted Emission 15.107(a) 15.207(a)
5.4 RSS-GEN 8.8
Complies
Digital Modulation Techniques 15.319(b) 5.1 Complies
Labeling requirements 15.19(a)(3) RSP-100 3.1 Complies
Antenna Requirement 15.317, 15.203 RSS-GEN 8.3 Complies
Channel Frequencies 15.303 5.1 Complies
Automatic discontinuation of transmission 15.319(f) 5.2 (4) Complies
Emission Bandwidth 15.323(a) 5.5 RSS-GEN 6.6
Complies
In-band emissions 15.323(d) 5.8.2 Complies
Out-of-band emissions 15.323(d) 5.8.1 Complies
Peak Transmit Power and Antenna Gain 15.319(c)(e), 15.31(e)
5.6 RSS-GEN 8.3
Complies
Power Spectral Density 15.319(d) 5.7 Complies
Carrier frequency stability 15.323(f) 5.3 Complies
Frame repetition stability 15.323(e) 5.2 (13) Complies
Frame period and jitter 15.323(e) 5.2 (13) Complies
Monitoring threshold, Least interfered channel 15.323(c)(2)(5)(9) 5.2 (2)(5)(9) Complies
Monitoring of intended transmit window and maximum reaction time
15.323(c)(1) 5.2 (1) Complies
Threshold monitoring bandwidth 15.323(c)(7) 5.2 (7) Complies
Reaction time and monitoring interval 15.323(c)(1)(5)(7) 5.2 (1)(5)(7) Complies
Access criteria test interval 15.323(c)(4)(6) 5.2 (4)(6) Complies
Access Criteria functional test 15.323(c)(4)(6) 5.2 (4)(6) Complies
Acknowledgements 15.323(c)(4) 5.2 (4) Complies
Transmission duration 15.323(c)(3) 5.2 (3) N/A1
Dual access criteria 15.323(c)(10) 5.2 (10) Complies
Alterative monitoring interval 15.323(c)(11)(12) 5.2 (11)(12) N/A2
Spurious Emissions (Radiated) 15.319(g) 15.109(a) 15.209(a)
RSS-GEN 8.9 N/A3
1 Only applies for equipment that transmits unacknowledged control and signaling information
1 Only applies for EUT that can be initiating device
2 The client declares that the tested equipment does not implement this provision
3 Not required if the Conducted Out-of-Band Emissions test is Passed
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 7 (47)
3 TEST RESULTS
3.1 Power Line Conducted Emissions
FCC Part 15.207(a)
RSS-213 Clause 6.3, RSS-GEN Clause 8.8
Test Performed By: Jan G. Eriksen Date of Test: 28-Jun-2016
Measurement procedure: ANSI C63.4-2014 using 50 µH/50 ohms LISN.
Test Results: Complies
Measurement Data: See attached graph, (Peak detector).
Highest measured value (L1 and N):
AC Adaptor PNLV226(zz), 120V 60Hz:
Frequency Level Af Limit Margin Det Position Verdict
[MHz] [dBuV] [dB] [dBuV] [dB] [Pass/Fail]
2.195000 29.40 10.40 56.00 26.60 QP L1 Pass
3.550000 30.00 10.40 56.00 26.00 QP L1 Pass
4.215000 30.50 10.50 56.00 25.50 QP L1 Pass
4.740000 29.70 10.50 56.00 26.30 QP L1 Pass
0.175000 14.10 10.70 54.70 40.60 AV L1 Pass
0.210000 13.60 10.70 53.20 39.60 AV L1 Pass
0.315000 24.60 10.50 49.80 25.20 AV L1 Pass
0.375000 15.20 10.40 48.40 33.20 AV L1 Pass
0.440000 16.60 10.30 47.10 30.50 AV L1 Pass
0.665000 17.60 10.20 46.00 28.40 AV L1 Pass
0.895000 17.60 10.30 46.00 28.40 AV L1 Pass
1.040000 16.90 10.40 46.00 29.10 AV L1 Pass
1.545000 19.60 10.40 46.00 26.40 AV L1 Pass
1.785000 19.80 10.40 46.00 26.20 AV L1 Pass
2.195000 20.40 10.40 46.00 25.60 AV L1 Pass
3.550000 21.20 10.40 46.00 24.80 AV L1 Pass
4.215000 21.50 10.50 46.00 24.50 AV L1 Pass
4.740000 20.70 10.50 46.00 25.30 AV L1 Pass
6.220000 13.00 10.60 50.00 37.00 AV L1 Pass
15.730000 12.00 10.80 50.00 38.00 AV L1 Pass
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 8 (47)
0
20
40
60
80
100
Level [dBµV]
150k 300k 500k 1M 2M 3M 5M 7M 10M 30M
Frequency [Hz]
+ +
+
+ + + + ++ + + + + +
+ +
x x x x
x MES 312149_CLN_Qp + MES 312149_CLN_Av
MES 312149_CLN LIM FCC ClassB V QP LIM FCC ClassB V AV
AC Adaptor PNLV226(zz), 120V 60Hz
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 9 (47)
3.2 Digital Modulation Techniques
The EUT uses Multi Carrier / Time Division Multiple Access / Time Division Duplex and Digital GFSK modulation. For further details see the operational description provided by the applicant.
Requirement, FCC 15.319(b):
All transmissions must use only digital modulation techniques.
3.3 Labeling Requirements
See separate documents showing the label design and the placement of the label on the EUT.
Requirements FCC 15.19
The FCC Identifier shall be displayed on the label, and the device(s) shall bear the following statement in a conspicuous location on the device or in the user manual if the device is too small:
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
The label itself shall be of a permanent type, not a paper label, and shall last the lifetime of the equipment.
3.4 Channel Frequencies
UPCS CHANNEL FREQUENCY (MHz)
Upper Band Edge 1930.000
0 (Highest) 1928.448
1 1926.720
2 1924.992
3 1923.264
4 (Lowest) 1921.536
Lower Band Edge 1920.000
Requirement: FCC 15.303
Within 1920 -1930 MHz band for isochronous devices.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 10 (47)
3.5 Antenna Requirement
Does the EUT have detachable antenna(s)? YES NO
If detachable, is the antenna connector(s) non-standard? YES NO
The tested equipment has only integral antennas. The conducted tests were performed on a sample with a temporary antenna connector.
Requirement: FCC 15.203, 15.204, 15.317.
3.6 Automatic Discontinuation of Transmission
Does the EUT transmit Control and Signaling Information? YES NO
TYPE OF EUT : INITIATING DEVICE RESPONDING DEVICE
The following tests simulate the reaction of the EUT in case of either absence of information to transmit or operational failure after a connection with the companion device is established.
Number Test EUT Reaction Verdict
1 Power removed from EUT C Pass
2 Switch Off EUT N/A Pass
3 Hook-On by EUT N/A Pass
4 Power Removed from Companion Device A Pass
5 Switch Off Companion Device N/A Pass
6 Hook-On by Companion Device N/A Pass
A - Connection breakdown, Cease of all transmissions B - Connection breakdown, EUT transmits control and signaling information C - Connection breakdown, Companion Device transmits control and signaling information N/A - Not Applicable (EUT/Companion Device does not have On/Off switch and cannot perform Hook-On)
Requirements, FCC 15.319(f)
The device shall automatically discontinue transmission in case of either absence of information to transmit or operational failure. These provisions are not intended to preclude transmission of control and signaling information or use of repetitive codes used by certain digital technologies to complete frame or burst intervals.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 11 (47)
3.7 Peak Power Output
Test Method:
ANSI C63.17, clause 6.1.2.
Test Results: Complies
Measurement Data:
Maximum Conducted Output Power
Channel No. Frequency (MHz)
Maximum Conducted
Output Power (dBm)
Maximum Antenna
Gain (dBi)
Maximum Radiated
Output Power (dBm)
4 1921.536 18.6 1.0* 19.6
2 1924.992 18.6 1.0* 19.6
0 1928.448 18.5 1.0* 18.5
*Antenna Gain is value declared by manufacturer
For this test it was also checked that input voltage variation of 85 and 115% of nominal value did not have any effect on the measured output power.
Limit:
Conducted: 100 µW x SQRT(B) where B is the measured Emission Bandwidth in Hz
FCC 15.319(c)(e) and RSS-213, Issue 3: 20.76 dBm (119 mW)
The antenna gain is below 3 dBi, no reduction in transmit power is necessary.
Requirements, FCC 15.319(c)(e); RSS-213, Issue 3; RSS-GEN, Issue 4
Peak transmit power shall not exceed 100 microwatts multiplied by the square root of the emission bandwidth in Hertz.
The peak transmit power shall be reduced by the amount in decibels that the maximum directional gain of the antenna exceeds 3 dBi.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 12 (47)
Conducted Peak Output Power
2.5 µs 2.5 µs 2.5 µs 2.5 µs 2.5 µs 2.5 µs 2.5 µs 2.5 µs 2.5 µs
Offset 10.3 dB
2.5 µs
A
2.5 µs
LVL
2.5 µs
TRG
2.5 µs
Att 30 dB
2.5 µs
*
2.5 µs
Ref 30 dBm
2.5 µs
Center 1.921536 GHz
2.5 µs
50 µs/
2.5 µs
RBW 3 MHz
2.5 µs VBW 10 MHz 2.5 µs
SWT 500 µs
2.5 µs
MAXH
2.5 µs
*
2.5 µs
1 PK
2.5 µs
-70
-60
-50
-40
-30
-20
-10
0
10
20
30
2.5 µs
1
Marker 1 [T1 ]
18.55 dBm
2.500000 µs
POWER [T1]
PEAK 18.55 dBm
RMS 18.35 dBm
T1
T2
MARKER 1
2.5 µs
Date: 15.JUN.2016 13:13:45
Lower Channel
1 µs 1 µs 1 µs 1 µs 1 µs 1 µs 1 µs 1 µs 1 µs
Offset 10.3 dB
1 µs
A
1 µs
LVL
1 µs
TRG
1 µs
Att 30 dB
1 µs
*
1 µs
Ref 30 dBm
1 µs
Center 1.928448 GHz
1 µs
50 µs/
1 µs
RBW 3 MHz
1 µs VBW 10 MHz 1 µs
SWT 500 µs
1 µs
MAXH
1 µs
*
1 µs
1 PK
1 µs
-70
-60
-50
-40
-30
-20
-10
0
10
20
30
1 µs
1
Marker 1 [T1 ]
18.46 dBm
1.000000 µs
POWER [T1]
PEAK 18.46 dBm
RMS 18.30 dBm
T1
T2
MARKER 1
1 µs
Date: 15.JUN.2016 13:13:09
Upper Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 13 (47)
1.5 µs 1.5 µs 1.5 µs 1.5 µs 1.5 µs 1.5 µs 1.5 µs 1.5 µs 1.5 µs
Offset 10.3 dB
1.5 µs
A
1.5 µs
LVL
1.5 µs
RBW 3 MHz
1.5 µs VBW 10 MHz 1.5 µs
TRG
1.5 µs
Att 30 dB
1.5 µs
*
1.5 µs
Ref 30 dBm
1.5 µs
Center 1.924992 GHz
1.5 µs
50 µs/
1.5 µs
SWT 500 µs
1.5 µs
MAXH
1.5 µs
*
1.5 µs
1 PK
1.5 µs
-70
-60
-50
-40
-30
-20
-10
0
10
20
30
1.5 µs
1
Marker 1 [T1 ]
18.55 dBm
1.500000 µs
POWER [T1]
PEAK 18.55 dBm
RMS 18.33 dBm
T2
T1
MARKER 1
1.5 µs
Date: 15.JUN.2016 13:11:44
Middle Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 14 (47)
3.8 Emission Bandwidth B
Test Method:
ANSI C63.17, clause 6.1.3.
Test Results: Complies
Measurement Data:
Channel No. Frequency (MHz)
Emission Bandwidth B (MHz)
4 1921.536 1.42
2 1924.992 1.42
0 1928.448 1.41
Channel No. Frequency (MHz)
Occupied Bandwidth (MHz)
2 1924.992 1.28
Requirements, FCC 15.323(a), RSS-213 Issue 3, clause 5.5
The Emission Bandwidth B shall be larger than 50 kHz and less than 2.5 MHz.
No requirements for 6 and 12 dB Bandwidth, these values are only used for testing Monitoring Bandwidth if the Simple Compliance test fails (ANSI C63.17, clause 7.4).
Occupied Bandwidth (99%) is measured according to RSS-GEN Issue 4, clause 6.6. This value is reported for information only.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 15 (47)
Emission Bandwidth B, Lower Channel
Emission Bandwidth B, Upper Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 16 (47)
Emission Bandwidth B, Middle Channel
Ref 20 dBm
1.924992 GHz
Att 20 dB
1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz 1.924992 GHz
*
1.924992 GHz
Offset 10.3 dB
1.924992 GHz
A
1.924992 GHz
LVL
1.924992 GHz
Center 1.924992 GHz
1.924992 GHz
Span 4 MHz
1.924992 GHz
400 kHz/
1.924992 GHz
*
1.924992 GHz
RBW 10 kHz
1.924992 GHz VBW 30 kHz 1.924992 GHz
SWT 40 ms
1.924992 GHz
1 PK
1.924992 GHz
MAXH
1.924992 GHz
-80
-70
-60
-50
-40
-30
-20
-10
0
10
20
1.924992 GHz
1
Marker 1 [T1 ]
10.02 dBm
1.924992000 GHz
OBW 1.284000000 MHz
T1
Temp 1 [T1 OBW]
-8.53 dBm
1.924356000 GHz
T2
Temp 2 [T1 OBW]
-9.58 dBm
1.925640000 GHz
MARKER 1
1.924992 GHz
Date: 15.JUN.2016 13:26:41
99% Bandwidth, Middle Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 17 (47)
3.9 Power Spectral Density
Test Method:
ANSI C63.17, clause 6.1.5.
Test Results: Complies
Measurement Data:
Channel No. Frequency (MHz)
Power Spectral Density (dBm)
4 1921.536 2.0
0 1928.448 1.9
Averaged over 1000 sweeps.
Requirements, FCC 15.319(d)
The Power Spectral Density shall be less than 3 mW (4.77 dBm) when averaged over at least 100 sweeps.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 18 (47)
Power Spectral Density
Lower Channel:
Overview
Averaged, 1000 Sweeps
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 19 (47)
Upper Channel:
Overview
Averaged, 1000 Sweeps
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 20 (47)
3.10 In-Band Unwanted Emissions, Conducted
Test Method:
ANSI C63.17, clause 6.1.6.1.
Test Results: Complies
Measurement Data:
See plots.
Requirements, FCC 15.323(d):
B < f ≤ 2B : at least 30 dB below max. permitted peak power 2B < f ≤ 3B : at least 50 dB below max. permitted peak power 3B < f ≤ UPCS Band Edge : at least 60 dB below max. permitted peak power
Middle Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 21 (47)
In-Band Unwanted Emissions, Conducted
Lower Channel
Upper Channel
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 22 (47)
3.11 Out-of-band Emissions, Conducted
Test Method:
ANSI C63.17, clause 6.1.6.2.
Test Results: Complies
Measurement Data:
See plots.
Requirements, FCC 15.323(d):
f ≤ 1.25MHz outside UPCS band : ≤ -9.5dBm 1.25MHz ≤ f ≤ 2.5MHz outside UPCS band : ≤ -29.5 dBm f ≥ 2.5MHz outside UPCS band : ≤ -39.5 dBm
Out-of-Band Emissions, Conducted
Lower Channel:
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 23 (47)
Out-of-Band Emissions, Conducted
Lower Channel:
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 24 (47)
Out-of-Band Emissions, Conducted
Upper Channel:
Middle Channel:
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 25 (47)
Out-of-Band Emissions, Conducted
Middle Channel:
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 26 (47)
3.12 Carrier Frequency Stability
Test Method:
ANSI C63.17, clause 6.2.1.
Test Results: Complies
Measurement Data:
Long Term Frequency Stability is measured with the Frequency Domain Analyzer. The Frequency Domain Analyzer was logged by a computer programmed to get new readings as fast as possible (about 3 readings per second) over the noted time period or number of readings. The peak-to-peak difference was recorded and the mean value and deviation in ppm was calculated.
The Carrier Frequency Stability over Power Supply Voltage and over Temperature is measured with a Frequency Domain Analyzer in histogram mode.
Carrier Frequency Stability over Time at Nominal Temperature
Average Mean Carrier Frequency (MHz)
Max. Diff. (kHz)
Min. Diff. (kHz)
Max. Dev. (ppm)
Limit
1924.996946 9.976 2.289 2.6 ±10 ppm
Deviation ppm = ((Diff. - Mean Diff) / Mean Carrier Freq.) x 106
Deviation (ppm) is calculated from 3000 readings.
Frequency Stability over Power Supply Voltage at Nominal Temperature
Voltage Measured Carrier Frequency (MHz)
Difference (kHz)
Deviation (ppm)
Limit
Vnom 1925.0021 0 0
85% of Vnom 1925.0020 -0.1 -0.1 ±10 ppm
115% of Vnom 1925.0020 -0.1 -0.1
Deviation ppm = ((Mean – Measured Frequency) / Mean) x 106
This test does not apply for EUT that is powered from batteries.
Frequency Stability over Temperature
Temperature Measured Carrier Frequency (MHz)
Difference (kHz)
Deviation (ppm)
Limit
T = +20 °C 1925.0021 0 0
T = -20 °C 1925.0020 -0.1 -0.1 ±10 ppm
T = +50 °C 1924.9975 -4.6 -2.4
Deviation ppm = ((Mean – Measured Frequency) / Mean) x 106
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 27 (47)
3.13 Frame Repetition Stability
Test Method:
ANSI C63.17, clause 6.2.2.
Test Results: Complies
Measurement Data:
The envelope of the RF signal from the EUT is detected with a Crystal Detector and the mean and standard deviation of the frame repetition frequency is then gated over 100 frames and measured with a Frequency Domain Analyzer. The frame repetition stability is 3 times the standard deviation.
Carrier Frequency (MHz)
Mean (Hz)
Standard Deviation (µHz)
Frame Repetition Stability (ppm)
1924.992 100.000 0.939 0.028
Limit:
Frame Repetition Stability ±10 ppm (TDMA)
Ref. FCC 15.323(e), ANSI C63.17, clause 6.2.2
3.14 Frame Period and Jitter
Test Method:
ANSI C63.17, clause 6.2.3.
Test Results: Complies
Measurement Data:
The envelope of the RF signal from the EUT is detected with a Crystal Detector and the frame period and jitter is measured with a Frequency Domain Analyzer over at least 100.000 frames.
Carrier Frequency (MHz)
Frame Period (ms)
Max Jitter (µs)
3xStandard Deviation of Jitter (µs)
1924.992 10.000 -0.022 -0.020
Max Jitter = (1/ (Frame period + Pk-Pk/2)) - (1/Frame Period), when Pk-Pk and Frame Period are in Hz
3xSt.Dev.Jitter = 3x (1/(Frame Period + St.Dev) – 1/St.Dev) x 106
Limit:
Frame Period 20 or 10 ms
Max Jitter 25 µs
3 times St.Dev of Jitter 12.5 µs
Ref. FCC 15.323(e), ANSI C63.17, clause 6.2.3
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 28 (47)
Frame Repetition Stability, Gated over 100 Frames
Frame Period and Jitter
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 29 (47)
3.15 Monitoring Threshold, Least Interfered Channel
Monitoring Threshold Limits:
Lower Threshold:
TL = 15 log B - 184 + 30 - PEUT (dBm)
Upper Threshold:
TU = TL + 20 (dBm)
B is measured Emission Bandwidth in Hz PEUT is measured Transmitter Power in dBm
Calculated values:
FCC 15.323, RSS-213, Issue 3
Lower Threshold -80.3 dBm
Least Interfered Channel Procedure (LIC) may only be used by systems with more than 20 duplex system access channels. Systems with less than 20 duplex system access channels are not allowed to transmit when interferer level is above Lower Threshold.
Measurement Procedure:
Least Interfered Channel Procedure NOT used:
Lower Threshold N/A The EUT uses LIC procedure
Least Interfered Channel (LIC) Procedure Test, FCC 15.323(b), (c)(2) and (c)(5)
ANSI C63.17 clause 7.3.2 ref. Observation Verdict
b) f1 at TL + UM + 7 dB, f2 at TL + UM Transmission always on f2 Pass
c) f1 at TL + UM, f2 at TL + UM +7 dB Transmission always on f1 Pass
d) f1 at TL + UM + 1 dB, f2 at TL + UM - 6 dB Transmission always on f2 Pass
e) f1 at TL + UM - 6 dB, f2 at TL + UM + 1 dB Transmission always on f1 Pass
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 30 (47)
Selected Channel Confirmation, FCC 15.323(c)(1) and (5)
ANSI C63.17 clause 7.3.3 Observation Verdict
b) Shall not transmit on f1 EUT transmits on f2 Pass
d) Shall not transmit on f2 EUT transmits on f1 Pass
Limits:
FCC 15.323, RSS-213, Issue 3
Lower Threshold + 6 dB margin -74.3 dBm
Ref 0 dBm
3.28 s
Att 10 dB
3.28 s
*
3.28 s
CLRWR
3.28 s
A
3.28 s
RBW 1 MHz
3.28 s VBW 3 MHz 3.28 s
TRG
3.28 s
Center 1.921536 GHz
3.28 s
1 s/
3.28 s
SWT 10 s
3.28 s
SGL
3.28 s
*
3.28 s
1 PK
3.28 s 3.28 s 3.28 s 3.28 s 3.28 s 3.28 s 3.28 s 3.28 s 3.28 s 3.28 s
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
3.28 s
1
Marker 1 [T1 ]
-46.57 dBm
400.000000 ms
2
Delta 2 [T1 ]
27.18 dB
3.280000 s
DELTA MARKER 2
3.28 s
Date: 7.SEP.2016 13:06:59
7.3.4 Selected Channel Confirmation, Connection 3.28s After Interferer Removed
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 31 (47)
3.16 Threshold Monitoring Bandwidth
This test is only required if a dedicated monitoring receiver is used. However, if the test is not carried out the manufacturer shall declare and provide proper evidence that the monitoring is made through the radio receiver used for communication.
Measurement Procedure:
Simple Compliance Test, ANSI C63.17, clause 7.4.1
More Detailed Test, ANSI C63.17, clause 7.4.2
The test is passed if either the Simple Compliance Test or the More Detailed test is passed.
During this test the spectrum analyzer is observed visually to see if the EUT transmits or not.
Test Results:
Test performed Observation Verdict
Simple Compliance test, at ±30% of B N/A N/A
More Detailed Test, at -6 dB points N/A N/A
More Detailed Test, at -12 dB points N/A N/A
The more detailed test must be pass at both the -6 and -12 dB points if the Simple Compliance test fails.
Comment: The manufacturer declares that the tested EUT uses the same receiver for monitoring and communication, this test is therefore not required.
Limits, FCC 15.323(c)(7):
The monitoring system bandwidth must be equal to or greater than the emission bandwidth of the intended transmission.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 32 (47)
3.17 Reaction Time and Monitoring Interval
Measurement Procedure
ANSI C63.17, clause 7.5
Test results:
By administrative commands and out-of-operating region interference, the EUT is restricted to operate on two RF carrier frequencies.
A CW interferer signal at a level TL is applied on f1 and time-synchronized pulsed interference at a level TL + UM dB is applied on f2. The level on f2 was raised 6 dB for part d) with 35 µs pulses.
The pulses are synchronized with the EUT timeslots and applied centered within all timeslots.
For both tests the test is passed if the EUT transmits on f1.
Pulse Width, ref. to ANSI C63.17 clause 7.5 Observation Verdict
c) > largest of 50 µs and 50*SQRT(1.25/B) EUT transmits on f1 Pass
d) > largest of 35 µs and 35*SQRT(1.25/B), and with interference level raised 6 dB
EUT transmits on f1 Pass
Comment: Since B is larger than 1.25 MHz the test was performed with pulse lengths of 50 µs and 35 µs.
Limits, FCC 15.323(c)(1), (5) and (7)
The maximum reaction time must be less than 50xSQRT (1.25/emission bandwidth in MHz) microseconds for signals at the applicable threshold level but shall not be required to be less than 50 µs.
If a signal is detected that is 6 dB or more above the applicable threshold level, the maximum reaction time shall be 35xSQRT (1.25/emission bandwidth in MHz) microseconds but shall not be required to be less than 35 µs.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 33 (47)
Ref 0 dBm
1.921536 GHz
Att 10 dB
1.921536 GHz
*
1.921536 GHz
*
1.921536 GHz
1 PK
1.921536 GHz
CLRWR
1.921536 GHz
A
1.921536 GHz
TRG
1.921536 GHz
Center 1.921536 GHz
1.921536 GHz
1 ms/
1.921536 GHz
RBW 300 kHz
1.921536 GHz VBW 1 MHz 1.921536 GHz
SWT 10 ms
1.921536 GHz
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.921536 GHz
CENTER FREQUENCY
1.921536 GHz
Date: 7.SEP.2016 13:30:02
50 µs Pulses
Ref 0 dBm
1.921536 GHz
Att 10 dB
1.921536 GHz
*
1.921536 GHz
*
1.921536 GHz
1 PK
1.921536 GHz
CLRWR
1.921536 GHz
A
1.921536 GHz
TRG
1.921536 GHz
Center 1.921536 GHz
1.921536 GHz
1 ms/
1.921536 GHz
RBW 300 kHz
1.921536 GHz VBW 1 MHz 1.921536 GHz
SWT 10 ms
1.921536 GHz
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.921536 GHz
CENTER FREQUENCY
1.921536 GHz
Date: 7.SEP.2016 13:29:18
35 µs Pulses
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 34 (47)
3.18 Time and Spectrum Window Access Procedure
This requirement is only for EUTs which transmit unacknowledged control and signaling information.
Measurement Procedure:
Timing for EUTs using control and signaling channel type transmissions: ANSI C63.17, clause 8.1
Test results:
Access Criteria, ref. to ANSI C63.17 clause 8.1.1 Observation Verdict
b) Check that the EUT transmits on the interference free time-slot
EUT transmits on the interference free time-slot
Pass
b) The EUT must terminate or pause in its repetitive transmission of the control and signalling channel on the open channel to repeat the access criteria not less frequently than every 30 s
Transmission paused every 1.28 s
Pass
If FCC 15.323(c)(6) option, If Random Waiting Interval is NOT implemented
Access Criteria, ref. to ANSI C63.17 clause 8.1.2 Observation Verdict
b) Check that the EUT changes to an interference-free slot when interference is introduced on the time slot in use
EUT changes to the interference-free time-slot,
and stays there
Pass
If FCC 15.323(c)(6) option, Only if Random Waiting Interval is implemented
Access Criteria, ref. to ANSI C63.17 clause 8.1.3 Observation Verdict
b-d) Check that the EUT uses random waiting interval before continuing transmission on an interfered time slot
N/A N/A
Comment: The tested EUT does not support the Random Waiting Interval option.
Limits:
FCC 15.323(c)(4):
Once access to specific combined time and spectrum windows is obtained an acknowledgement from a system participant must be received by the initiating transmitter within one second or transmission must cease. Periodic acknowledgements must be received at least every 30 seconds or transmission must cease. Channels used exclusively for control and signaling information may transmit continuously for 30 seconds without receiving an acknowledgement, at which time the access criteria must be repeated.
FCC 15.323(c)(6):
If the selected combined time and spectrum windows are unavailable, the device may either monitor and select different windows or seek to use the same windows after waiting an amount of time, randomly chosen from a uniform random distribution between 10 and 150 milliseconds, commencing when the channel becomes available.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 35 (47)
Access Criteria Check
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 15:43:27
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 15:43:57
8.1.1a) Functional test, Before and After
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 36 (47)
Access Criteria Check
Ref 0 dBm
3.85 s
Att 10 dB
3.85 s
*
3.85 s
CLRWR
3.85 s
A
3.85 s
TRG
3.85 s
RBW 300 kHz
3.85 s VBW 1 MHz 3.85 s
Center 1.921536 GHz
3.85 s
500 ms/
3.85 s
SWT 5 s
3.85 s
SGL
3.85 s
*
3.85 s
1 PK
3.85 s 3.85 s 3.85 s 3.85 s 3.85 s 3.85 s 3.85 s 3.85 s 3.85 s 3.85 s
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
3.85 s
1
Marker 1 [T1 ]
-20.01 dBm
430.000000 ms
2
Delta 2 [T1 ]
0.02 dB
3.850000 s
DELTA MARKER 2
3.85 s
Date: 7.SEP.2016 15:28:16
8.1.1b) Access Criteria check Interval
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 37 (47)
3.19 Acknowledgements and Transmission Duration
Measurement Procedure:
Acknowledgements: ANSI C63.17, clause 8.2.1
Transmission Duration: ANSI C63.17, clause 8.2.2
During the test Initial transmission without acknowledgements the signal from the EUT to the companion device is blocked by circulators in addition to the tunable attenuator.
The test Transmission time after loss of acknowledgements is performed by cutting-off the signal from the companion device by a RF switch and measuring the time until the EUT stops transmitting.
The Transmission Duration test is performed by monitoring the slot in use and measuring the time until the EUT changes to a different slot.
Test Results:
Acknowledgements
Test ref. to ANSI C63.17 clause 8.2.1 Observation Verdict
a) Initial transmission without acknowledgements 0.526 sec N/A
c) Transmission time after loss of acknowledgements 5.0 sec Pass
Transmission Duration
Test ref. to ANSI C63.17 clause 8.2.2 Observation Verdict
b) Transmission duration on same time and frequency window
2 hours 19 min N/A
Comment: /
Limits, FCC 15.323(c)(3) and (4)
Occupation of the same combined time and spectrum windows by a device or group of cooperating devices continuously over a period of time longer than 8 hours is not permitted without repeating the access criteria.
Once access to specific combined time and spectrum windows is obtained an acknowledgement from a system participant must be received by the initiating transmitter within one second or transmission must cease.
Periodic acknowledgements must be received at least every 30 seconds or transmission must cease. Channels used exclusively for control and signaling information may transmit continuously for 30 seconds without receiving an acknowledgement, at which time the access criteria must be repeated.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 38 (47)
8.2.1a) Initial Transmission without acklowledgements
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 39 (47)
3.20 Dual Access Criteria Check
Measurement Procedure:
EUTs that does not implement the LIC procedure: ANSI C63.17, clause 8.3.1
EUTs that implement the LIC procedure: ANSI C63.17, clause 8.3.2
This test is required for equipment that uses the access criteria in FCC 15.323(c)(10).
Test Results:
EUTs that do NOT implements the LIC procedure:
Test ref. to ANSI C63.17 clause 8.3.1 Observation Verdict
b) EUT is restricted to a single carrier f1 for TDMA systems. The Test is Pass if EUT can transmit
N/A N/A
c) d) Interference at level TL + UM on all timeslots except one receive slot where interference is at least 10 dB below TL
N/A N/A
e) f) Interference at level TL + UM on all timeslots except one transmit slot where interference is at least 10 dB below TL
N/A N/A
EUTs that implements the LIC procedure:
Test ref. to ANSI C63.17 clause 8.3.2 Observation Verdict
b) EUT is restricted to a single carrier f1 for TDMA systems. The Test is Pass if EUT can transmit
EUT can transmit Pass
c) d) Transmission on interference-free receive time/spectrum window
EUT transmits on interference free receive slot
Pass
e) f) Transmission on interference-free transmit time/spectrum window
EUT transmits on interference free transmit slot
Pass
Comment: See plots.
Limits, FCC 15.323(c)(10)
An initiating device may attempt to establish a duplex connection by monitoring both its intended transmit and receive time and spectrum windows. If both the intended transmit and receive time and spectrum windows meet the access criteria, then the initiating device can initiate a transmission in the intended transmit time and spectrum window. If the power detected by the responding device can be decoded as a duplex connection signal from the initiating device, then the responding device may immediately begin transmitting on the receive time and spectrum window monitored by the initiating device.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 40 (47)
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 16:05:24
8.3.2c) EUT Transmits on Interference Free RECEIVE Slot, BEFORE
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 16:06:02
8.3.2c) EUT Transmits on Interference Free RECEIVE Slot, AFTER
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 41 (47)
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 16:06:31
8.3.2e) EUT Transmits on Interference Free TRANSMIT Slot, BEFORE
Ref 0 dBm
10 ms
Att 10 dB
10 ms
*
10 ms
CLRWR
10 ms
A
10 ms
TRG
10 ms
RBW 300 kHz
10 ms VBW 1 MHz 10 ms
*
10 ms
1 PK
10 ms
Center 1.921536 GHz
10 ms
1 ms/
10 ms
SWT 10 ms
10 ms
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
10 ms
SWEEP TIME
10 ms
Date: 7.SEP.2016 16:06:55
8.3.2e) EUT Transmits on Interference Free TRANSMIT Slot, AFTER
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 42 (47)
3.21 Alternative Monitoring Interval
Test procedure described in ANSI C63.17 clause 8.4.
This test is required if the EUT implements the provisions of FCC 15.323(c)(11).
Test result:
Not Tested. The tested EUT does not implement this provision. See manufacturers’ declaration.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 43 (47)
4 Measurement Uncertainty
Measurement Uncertainty Values
Test Item Uncertainty
Output Power ±0.5 dB
Power Spectral Density ±0.5 dB
Out of Band Emissions, Conducted (RBW < 100 kHz) < 3.6 GHz ±0.6 dB
> 3.6 GHz ±0.9 dB
Spurious Emissions, Radiated < 1 GHz ±2.5 dB
> 1 GHz ±2.2 dB
Emission Bandwidth ±4 %
Power Line Conducted Emissions +2.9 / -4.1 dB
Spectrum Mask Measurements Frequency ±5 %
Amplitude ±1.0 dB
Frequency Error ±0.6 ppm
Timing and Jitter Measurements ±2.0 ns
Frame Timing Measurements ±1.4 ppm
Receiver Blocking Levels ±1.0 dB
Temperature Uncertainty ±1 °C
All uncertainty values are expanded standard uncertainty to give a confidence level of 95%, based on coverage factor k=2
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 44 (47)
5 Test Setups
5.1 Frequency Measurements
Modulation
Domain AnalyzerEUT
Test equipment included: 5, 9, 18
Test Set-up 1
This setup is used for measuring Carrier frequency stability at normal and extreme temperatures.
5.2 Timing Measurements
Modulation
Domain AnalyzerEUT
Crystal
Detector
Test equipment included: 5, 7, 9, 18
Test Set-up 2
This setup is used for measuring Frame repetition stability, Frame period and Jitter.
5.3 Conducted Emission Test
Spectrum
AnalyzerEUT
10 dB
Test equipment included: 1, 2, 9, 18, 19, 24
Test Set-up 3
This setup is used for all conducted emission tests.
5.4 Power Line Conducted Emissions Test
EUT LISN Test Receiver
Shielded Room
Test equipment: 8, 16, 17, 18
Test Set-Up 5
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 45 (47)
5.5 Monitoring Tests
EUTCompanion
Device
Generator 1 Generator 2 Generator 3Spectrum
Analyzer
Pulse Pattern
Generator
CLK100
Sync signal
10 dB
Tunable
Attenuator
Combining
Device
Shielded Room
Test equipment: 2, 3, 4, 6, 9, 10, 11, 12, 13, 14, 15, 19, 20, 21, 22, 23, 24
Test Set-Up 6
This test setup is used for all Monitoring and Time and Spectrum Access Procedure tests. The path loss from the signal generators to the EUT is measured with a power meter before the testing is started.
The CLK100 is used to synchronize the Pulse-/ Pattern generator to the start of the DECT frame, this signal always comes from the base station. If the EUT is a DECT Portable Part (i.e. a handset) the CLK100 signal will come from the Companion Device.
The sync signal to the Spectrum Analyzer is the CLK100 signal that is regenerated in the Pulse-/ Pattern Generator, this is used to synchronize the Spectrum Analyzer to the DECT frame when in zero span. The Pulse-/ Pattern Generator is used for tests that require time synchronized pulses or blocking of specific time slots.
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 46 (47)
6 Test Equipment Used
To facilitate inclusion on each page of the test equipment used for related tests, each item of test equipment and ancillaries are identified (numbered) by the Testhouse.
No. Model number Description Manufacturer Ref. no. Cal. date Cal. Due
1 FSW26 Spectrum Analyzer Rohde & Schwarz LR 1640 2015.10 2016.10
2 SME03 Signal generator Rohde & Schwarz LR 1238 2015.05 2017.05
3 SMIQ03B Signal generator Rohde & Schwarz LR 1516 2015.05 2017.05
4 SMHU52 Signal generator Rohde & Schwarz LR 1240 Cal b4 use
5 53310A Modulation Domain Analyzer Hewlett Packard LR 1483 2016.01 2018.01
6 81104A Pulse-/ Pattern Generator Agilent LR 1502 2015.05 2017.05
7 8470B Crystal Detector Hewlett Packard LR 1207 N/A
8 ESHS10 Measuring Receiver Rohde & Schwarz N- 3528 2015.08 2016.08
9 4768-10 Attenuator Narda LR1356 Cal b4 use
10 745-69 Step Attenuator Narda LR 1442 N/A
11 WE 1506A Power Splitter Weinchel LR 244 Cal b4 use
12 WE 1506A Power Splitter Weinchel LR 245 Cal b4 use
13 H-9 Hybrid Anzac LR 86 Cal b4 use
14 H-9 Hybrid Anzac LR 257 Cal b4 use
15 S212DS RF Switch Narda LR 1244 N/A
16 ESH3-Z5 Two Line V-Network Rohde & Schwarz LR 1076 N/A
17 ESH3-Z2 Pulse Limiter Rohde & Schwarz LR 1074 2015.03 2017.03
18 6812B AC Power Source Agilent LR 1515 2015.12 2016.12
19 Model 87 V Multimeter Fluke N-4672 2015.10 2016.10
20 87H35-1 Circulator Racal-MESL s.no.: 140 N/A
21 87H35-1 Circulator Racal-MESL s.no.: 141 N/A
22 87H35-1 Circulator Racal-MESL s.no.: 142 N/A
23 U2000A Average Power Sensor Agilent LR 1523 2015.10 2016.10
24 FSP30 Spectrum Analyzer Rohde & Schwarz LR 1551 2015.04 2017.04
25 FSW43 Spectrum Analyzer Rohde & Schwarz LR 1690 2016.07 2017.07
TEST REPORT
FCC part 15D
Report no.: 312149-1
FCC ID: ACJ96NKX-HNZ108
Nemko Norway, Instituttveien 6, Kjeller, Norway Page 47 (47)
Revision history
Version Date Comment Sign
1.0 2016.06.30 First edition FS
2.0 2016.09.08 Updated with new Monitoring Tests FS
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